UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The WAF1/Cip1 protein is an important regulator at the G1 checkpoint in the cell cycle. The WAF1/Cip1 protein binds to the cyclin-dependent kinase complexes and inhibits the kinase activity that is required for cell cycle progression. We investigated the expression of WAF1/Cip1 protein in 14 glioblastoma cell lines and found that WAF1/Cip1 expression was detectable in many of the cell lines, even when mutant p53 was present. We also showed that WAF1/Cip1 protein level was very low in LN-Z308 cells that do not express endogenous p53. Transfection of the wild-type p53 into this cell line activated WAF1/Cip1 expression and inhibited cell growth. In contrast, transfection of the p53 mutant 248Trp failed to activate WAF1/Cip1 expression. Transfection of WAF1/Cip1 alone also inhibited LN-Z308 cell proliferation. However, cotransfection of the p53 mutant 248Trp with WAF1/Cip1 attenuated the growth-suppression effect of WAF1/Cip1. Our analysis with Western blot showed that the levels of cyclin E increased in cells transfected with p53 mutants. We conclude that p53 mutants may counter the negative regulators, such as WAF1/Cip1, by the elevation of positive cell cycle regulators, and the presence of WAF1/Cip1 in tumor cells is not sufficient for growth inhibition.
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PMID:Inhibition of human glioblastoma cell growth by WAF1/Cip1 can be attenuated by mutant p53. 854 19

The tumor suppressor p53 plays a role in mediating a G1 arrest (for example, in response to DNA damage), in the cellular commitment to apoptosis and in suppression of transformation. The mechanism of action of p53 in each of these biological outcomes is likely to be overlapping. Current data indicate that p53 functions as a sequence specific transcriptional activator. p53 can also repress transcription from certain promoters. One way in which p53 mediates a G1 arrest after DNA damage appears to be clear. Cells exposed to ionizing radiation show elevated levels of p53 protein. The increase in p53 levels is thought to be responsible for the increase in the cyclin-dependent kinase (cdk) inhibitor p21 mediated through the p53 binding sites in the p21 promoter. With regard to the ability of p53 to suppress transformation, there is data suggesting that p53 functions other than, or in addition to, its transcriptional activation function may be necessary. Similar data exist for p53-dependent apoptosis. Recently a role for p53 at another level of gene regulation, namely, translational regulation has been proposed. p53 associates with various components of the translation machinery and has been implicated in the translational regulation of both the p53 and CDK4 mRNAs. Here we will summarize the evidence suggesting a role for p53 in translation and how this regulation might be achieved.
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PMID:p53 and translational control. 860 71

The p53 tumour suppressor protein is a potent transcription factor which plays a central role in the defence of cells against DNA damage and the propagation of malignant clones. We have previously shown that phosphorylation of serine 386 in mouse p53 by the growth- associated protein kinase, casein kinase II (CKII), plays an important role in the ability of p53 to block the proliferation of drug-resistant colonies. In this paper we show that blocking phosphorylation of serine 386 through an alanine substitution, or placing a constitutive negative charge at this position in the form of aspartate, had no significant influence on p53-dependent transcriptional activation of a promoter containing 13 copies of a p53 consensus binding sequence, or of the p21WAF1 promoter which is a natural target for p53. In contrast, the alanine mutant showed a weak reduction in the ability of p53 to repress expression from the c-fos promoter, which is a target for p53-dependent repression in vivo. Strikingly, when the repression of the SV40 early promoter was examined, a reduction in the repression capacity of up to 5-fold was observed. Moreover, repression of the SV40 promoter could be partially restored by aspartic acid substitution at the phosphorylation site. These data indicate that phosphorylation at a specific C-terminal site can selectively regulate p53-dependent repression, but not transactivation.
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PMID:Phosphorylation of p53 at the casein kinase II site selectively regulates p53-dependent transcriptional repression but not transactivation. 860 47

Our previous data have shown that isolated leukemic cells from progressive chronic lymphocytic leukemia (B-CLL) patients respond to growth stimulation in vitro and express high levels of p53, immunoreactive with the configuration-specific antibody PAb 240. We have now analyzed the in vitro survival of B-CLL cells in relation to Bcl-2, Bax alpha and p53 expression and compared this with the clinical progression of the disease. Leukemic cells from patients with progressive disease demonstrated higher in vitro survival, compared with non-progressive B-CLL and normal B cells. All cells were sensitive to treatment with a combination of glucocorticoid and cAMP. Bcl-2 protein levels were not related to clinical progression, as measured by flow cytometry. Competitive PCR showed that Bcl-2 mRNA was over-expressed in most of the B-CLL samples and that p53 mRNA expression was similar between B-CLL groups and normal values and thus not related to clinical progression. However, since Bax alpha expression was lower in progressive than in non-progressive patients, the Bcl-2/Bax alpha ratio at the mRNA level was significantly higher in the progressive group. Our data suggest that the Bcl-2/Bax alpha ratio is important for the regulation of B-CLL cell survival, that p53 over-expression in progressive B-CLL is the result of post-transcriptional modifications and that a directed PKA activation may potentiate the cytolytic effect of glucocorticoids in vivo.
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PMID:Bcl-2, Bax and p53 expression in B-CLL in relation to in vitro survival and clinical progression. 860 78

In nonproliferating or growth-arrested cells, the transcription factor E2F remains bound to the retinoblastoma-related protein p130. Accumulation of this E2F-p130 complex correlates with an arrest of the cell cycle progression. Progression through G1 phase is associated with a cyclin-dependent binding of the cyclin-dependent kinase cdk2 to the E2F-p130 complex. By fractionating mouse L-cell extracts, we have obtained a partially purified preparation of the E2F-p130 complex that also contains cdk2. Incubation of this complex with recombinant p21 results in a disruption of the interaction between cdk2 and the E2F-p130 complex in extracts of a cell line that expresses a temperature-sensitive mutant of p53. Incubation at the permissive temperature (32 degrees C) results in an induction of p21 synthesis. An increase in the level of p21 in these cells correlates with a loss of cdk2 from the cdk2-containing E2F-p130 complex. We also show that the expression of a reporter gene containing E2F sites in the promoter region is reduced by the coexpression of p21. Since p21 is believed to be a mediator of p53, we speculated that the p21-mediated disruption of the cdk2-containing E2F-p130 complex plays a role in the growth suppression function of p53.
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PMID:p21 Disrupts the interaction between cdk2 and the E2F-p130 complex. 862 74

In a search for effectors and targets of UVB signaling in mammalian cells, we screened a keratinocyte cDNA library with differentially subtracted UVB-enriched cDNA probes. One of the UVB induced cDNA clones proved to be the rat p21Cip1/WAF1 homologue. UVB irradiation caused a rise in p53 protein levels, in association with induction of p21Cip1/WAF1 and cyclin G expression. The effects of UVB irradiation induced p21Cip1/WAF1 on the cell cycle were examined. In contrast to gamma irradiation, which caused G2 arrest, UVB treatment of asynchronous neonatal rat keratinocytes (NK) led to a marked inhibition of replicative DNA synthesis and prolonged G1 and S phase arrests, persisting to 18-24 h, with recovery of cycling by 36 h post-UVB. G1 arrest was accompanied by inhibition of cyclin D-, E- and A-associated kinases. Kinase inhibition was not due to reduction in cyclin or cdk proteins. While the association of cyclin E with Cdk2 was moderately reduced, cyclin D1/Cdk4 and cyclin A/Cdk2 complexes were not disrupted. The activating threonine 160 phosphorylation of Cdk2 in cyclin complexes was not inhibited. An incremental binding of p21 with Cdk4 paralleled the inhibition of cyclin D1/Cdk4 kinase and a similar rise in Cdk2 binding to p21 was associated with inhibition of cyclin E and cyclin A dependent kinases. Furthermore, a rise in measurable p21Cip1/WAF1-Cdk2 inhibitory activity paralleled the loss of G1 cyclin-dependent kinase activity, supporting a role for p21Cip1/WAF1 in the UVB-induced checkpoints.
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PMID:UVB radiation induces p21Cip1/WAF1 and mediates G1 and S phase checkpoints. 862 54

The p53-regulated p21Waf1 protein is a universal inhibitor of cyclin-dependent kinases (CDKs). To study the potential tumor-suppressive properties of CDK inhibitors, the ability of p21Waf1 to interfere with oncogene-mediated cellular transformation was analysed in the NIH3T3 cell system. Cotransfection of waf1 together with activated ras or several other oncogenes into NIH3T3 cells potently inhibited the formation of transformed foci in a dose-dependent manner. Expression of the CDK-binding N-terminal half of p21Waf1 (N-p21Waf1) was necessary and sufficient to inhibit Ras-induced focus formation. In contrast, expression of the C-terminal domain (C-p21Waf1) had no effect on Ras-induced focus formation. Immunofluorescence analysis revealed that ectopically expressed p21Waf1 and C-p21Waf1 were localized in the nucleus, while N-p21Waf1 was found in the cytoplasm, with the tendency to accumulate around the nuclear membrane. Surprisingly, stable NIH3T3 transfectants expressing ectopic p21Waf1 grew at the same rate and displayed similar cell cycle distribution as NIH3T3 cells transfected with the same vector containing no insert. However, ectopic p21Waf1 expression did inhibit Ras-mediated anchorage-independent colony formation, indicating that p21Waf1 can selectively interfere with oncogene-mediated transformation without affecting NIH3T3 cell growth, at least at the levels of p21Waf1 expression achieved in these experiments. Transient transfection of waf1 into NIH3T3 cells inhibited Ras-induced transcription from a E2F-responsive element but not from a serum-responsive element, indicating that p21Waf1 acts downstream of early transcriptional events induced by Ras but upstream of E2F-controlled gene transcription. These results provide evidence that p21Waf1 potently suppresses oncogene-mediated cellular transformation of NIH3T3 cells and that it may do so by inhibiting E2F-driven transcription of S phase genes.
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PMID:Inhibition of oncogene-mediated transformation by ectopic expression of p21Waf1 in NIH3T3 cells. 863 99

The cyclin-dependent kinase inhibitor p21Cip1/Waf1 is responsible for the p53-dependent growth arrest of cells in G1 phase following DNA damage. In the present study we investigated regions of p21 involved in inhibition of the G1/S phase cyclin-dependent kinase, cyclin E/Cdk2, as well as regions of p21 important for binding to this kinase and recombinant PCNA. To perform these studies we synthesized a series of overlapping peptides spanning the entire p21 sequence and used them in in vitro assays with cyclin E/Cdk2-immune complexes and with recombinant p21 and PCNA proteins. One amino-terminal p21 peptide spanning amino acids 15-40, antagonized p21 binding and inhibition of cyclin E/Cdk2 kinase. Antagonism of p21 binding was, however, lost in a similar peptide lacking amino acids 15-20, or in a peptide in which cysteine-18 was substituted for a serine. These results suggest that this peptide region is important for p21 interaction with cyclin E/Cdk2. A second peptide (amino acids 58-77) also antagonized p21-activity, but this peptide did not affect the ability of p21 to interact with cyclin E/Cdk2. A region of p21 larger than 26 amino acids is presumably required for Cdk-inhibition because none of the peptides we tested inhibited cyclin E/Cdk2. We also found that a peptide spanning amino acids 21-45 bound recombinant p21 in ELISA assays, and additional studies revealed a requirement for amino acids 26 through 45 for this interaction. A p21 peptide spanning amino acids 139-164 was found to bind PCNA in a filter binding assay and this peptide suppressed recombinant p21-PCNA interaction. Conformational analysis revealed that peptides spanning amino acids 21-45 and 139-164 tended towards an alpha-helical conformation in trifluoroethanol buffer, indicating that these regions are probably in a coiled conformation in the native protein. Taken together, our results provide an insight into domains of p21 that are involved in cyclin E/Cdk2 and PCNA interaction. Our results also suggest that a potential p21 dimerization domain may lie in the amino-terminus of p21. Continued exploration of these domains could prove useful in assessing p21-mimetic strategies for cancer treatment.
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PMID:Characterization of p21Cip1/Waf1 peptide domains required for cyclin E/Cdk2 and PCNA interaction. 863 17

Considerable effort is currently being devoted to understand the functions of protein p53, a major regulator of cell proliferation. The protein p53 has been reported to catalyse the annealing of complementary DNA or RNA strands. We report that this activity is inhibited in the presence of the serine/threonine protein kinase CK2. It is shown that this inhibition can be explained by the occurrence of a high-affinity molecular association between p53 and CK2. The molecular complex involves an interaction between the C-terminal domain of p53 and the beta subunit of the oligomeric kinase. Accordingly, the isolated alpha subunit of the kinase was without effect. In addition, after phosphorylation by CK2, phosphorylated p53 lost its DNA annealing activity. Because the C-terminal domain of p53 is both involved in the association with CK2 and phosphorylated by it, our results suggest that either protein-protein interaction or phosphorylation of this domain might control the base pairing of complementary sequences promoted by p53 in processes related to DNA replication and repair.
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PMID:Casein kinase 2 inhibits the renaturation of complementary DNA strands mediated by p53 protein. 864 26

sgk is a novel member of the serine/threonine protein kinase gene family that is transcriptionally regulated by serum and glucocorticoids in mammary epithelial cells. To functionally determine if the sgk promoter is regulated by the p53 tumor suppressor protein in mammary cells, a series of sgk promoter fragments with 5'-deletions were linked to the bacterial chloramphenicol acetyltransferase gene (sgk-CAT) and transiently co-transfected into nontumorigenic NMuMG or transformed Con8Hd6 mammary epithelial cells with p53 expression plasmids. Wild-type p53, but not mutant p53, strongly stimulated sgk promoter activity in both mammary epithelial cell lines. These effects were mediated by specific regions within the sgk promoter containing p53 DNA-binding sites. The sgk p53 sequence at-1380 to-1345 (site IV) was sufficient to confer p53-dependent transactivation to a heterologous promoter, and p53 was capable of binding to this sequence in vitro as assessed by gel shift analysis. In the nontumorigenic NMuMG epithelial cell line, cotransfection of wild-type p53 strongly stimulated the activities of both the sgk promoter and the well characterized p53-responsive p21/Waf1 promoter, whereas in Rat-2 fibroblasts, wild-type p53 repressed the basal activities of both promoters, revealing that sgk and p21/Waf1 are similarly regulated in a cell type-specific manner. Taken together, these results demonstrate that sgk is a new transcriptional target of p53 in mammary epithelial cells and represent the first example of a hormone-regulated protein kinase gene with a functionally defined p53 promoter recognition element.
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PMID:p53 stimulates promoter activity of the sgk. serum/glucocorticoid-inducible serine/threonine protein kinase gene in rodent mammary epithelial cells. 864 46

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